DE3543846C2 - - Google Patents

Abstract

For accurate positioning of a web of material which is to be transported stepwise by at least first and second feed means through processing stations disposed therebetween, the feed means are controlled by a programmable computer which stores a value representative of the length of the distance to be covered by the web during a transportation step. The tension of the web is measured and the measured value is compared to a reference value stored in the computer. If the actual value deviates from the reference value the drive means of at least one of the web feed means is controlled in such a way that the tension in the web is at least substantially adjusted to the reference value by increasing or reducing the length of the portion of web which in a transportation step is drawn into the processing region between the web feed means.

Description

The invention relates to a method and a device for positioning one using at least two feeds intermittently through the feeders directions arranged through processing stations transporting material web, the feed device be controlled by a programmable computer, in which the length of the during a transport step saved from the material path to be covered is. Methods and devices of this type are for example for printing on material webs and, if necessary, for removing them separate, e.g. B. by means of a punching process, the individual Print images from the material web used.

The previously common methods, e.g. B. for printing on Material webs in which, for example, a opto-electronic path recorders the effective path lengths recorded and with the stored path length of a transport be compared step by step and if there are deviations Correction is made independent of the actual value of the route depending on the registration marks attached to the web at the Adjusting the target value is enough for many today  Accuracies required, for example a repeat length, i.e. a distance of 1 m less not more than 0.1 mm, possibly only 0.01 mm.

An essential requirement for reaching the The required accuracy is to keep as close as possible constant web tension in the between the feed Directional track section to length changes this stretch of web by stretching or shrinking like that to keep it as low as possible. Changes in length due to stretching or shrinkage affect the length of the on the web applied printed image. When printing the Web in a corresponding number of printing stations, in which successively z. B. different colors the web are applied, which result in a to complete the printed image must be achieved to achieve the desired Accuracy can also be guaranteed that everyone multiple times printing section of the web in all consecutive printing is the same length. this is also valid for a possibly existing separation station, in which the section of the web provided with the printed image from this e.g. B. is separated by punching. If the is not met, the location of the actual cut, at least not everywhere congruent with the target position of the separating cut.  

From US-PS 43 16 566 is a device for Posi tion and control of a continuously moving measure terialbahn known. This device is with a front push drum provided, the one welding drum and one wheel-shaped filling device are connected downstream. On the The double-ply web is welded through across welds running in their longitudinal extent in bags divided. In the places where the welds markings are to be attached to the track. These are scanned by a scanner that the web passes running, recorded. The resulting signals become one Microprocessor fed. Furthermore, the known Vorrich device on by which the angular position of the Welding drum and thus the one attached to it Welding tools can be detected. The exit of this facility device is also connected to the microprocessor. Finally, the known device with a tachometer provided, the drive derived from the welding drum is. The output of this tachometer is also with connected to the microprocessor. The known device works in such a way that in the microprocessor Marking in the material web and depending on the position of the welding drum or the one attached to it Welding tools caused signals to be compared will. If these signals do not match in time agree that the marked area of the Track on reaching the welding drum assigned to it neten welding device comes to rest, the drive the feed drum is affected by appropriate Change the path speed assigned to the marking area of the web with the associated welding tool  to take cover on the welding drum. The extent of necessary change of the web speed and so that the speed of rotation of the feed drum determined by the number of pulses that the tachometer generator to the microprocessor in the period which the two signals differ in time. The measures described above thus serve to: Areas of the material web to which weld seams are attached should be in accordance with the areas of Bring welding drum that the tools used to manufacture the welds are worn and heated. - The drive of the Feed drum takes place via a stepper motor, which is from Microprocessor is driven with a high number of pulses. A change in the rotating speed of the feed drum and thus the web speed takes place via a change the number of pulses per unit of time. When operating the known device are at least when accelerating and Slow down the continuous movement of the material web Changes in the tension of the material web even then inevitable when the speed changes in small Steps.

The invention is based on a method and one Device of the type described in the introduction Task based on a  Method and device for positioning a material web to be transported in batches like this evolve that positioning the web of material in the individual processing stations with even larger ones Accuracy than was previously possible. In particular, should also the dimensions of each printed image of treatment station to treatment station no or only as low Subsequent changes experience that the quality of the final product nisse is not adversely affected.

This task will by a method according to claim 1 and by a Device according to claim 9 solved.

The inventive method provides that measured the tension of the web and the measured value with compared to a target value stored in the computer and at Deviation of the actual value from the target value at least then if the extent of the deviation has a certain threshold exceeds, the drive at least one of the feed facilities is influenced such that by Ver Extension or shortening of the transport step in the Area between the two feed devices pulled web material whose tension to the target value is at least approximated. It will be convenient proceed that the voltage between two successive transport steps measured and at Deviation of the actual value from the target value of the drive at next transport step is affected. So at  for example when the tension drops the path by one longer distances are pulled out of the machine than the path section corresponding to the end of the indent in the area between moving out and moving in is entered. It is possible to drive the feed device on Feeding or the drive of those on the pull-out To influence feed device accordingly. It is also possible to adjust both feed devices To influence voltage at their target value, e.g. B. such that if the target value is undershot then required change in voltage in the sense of a Increase the same at the end of the pull-out longer distance is pulled out of the machine and at the same time, a shorter section of the web at the end of the feed is inserted into the machine. This has the advantage that the change in the voltage change Elongation or shrinkage of the web over itself more evenly distributed the entire length of the track, namely from the Middle of the track section between moving in and moving out both feed devices.

On the other hand, if the actual value of the voltage is equal to that Target value is or deviates so little that a Changing the web tension is not necessary to run both feed devices in sync.  

To improve the accuracy with which the material lane is positioned at the end of each transport step, can according to a development of the invention be moved that during the transport step of the path covered by the material web and in Computer with the entered route and that too entered speed sequence over the distance compared to a transport step and if there is one a deviation of the speed course depending is changed from the actual distance traveled. This measure is based on the consideration that it is Achieving the required accuracy is necessary Speed sequence depending on the distance, to regulate the repeat or format length. So it will first a target speed sequence in the computer entered, taking into account that for a Transport step available time the loading acceleration phase at the beginning of each transport step and the delay phase at the end of each transport step a constant phase, if any, in between Speed in an optimal way to the speed sequence of a transport step combined. The on this Way theoretically achievable accuracy of speed However, in practice it is almost impossible to achieve because the drive means, that is, the motors that drive the feed cause the web, with small, unavoidable irregularity  work moderately, which exclude that the ever distance of a transport step over the Speed sequence can be set. That's why a further embodiment provides for the additional measure, the programmed speed sequence additionally via to influence the result of the path detection in the sense that, if necessary, depending on the effective distance covered the delay until silence deviated from the programmed value to the actual Liche conditions is adjusted. This adjustment is done usually in the last section of the delay phase. Through the step thus achieved with extreme precision point transport of the web is achieved that the length of the for each transport step in the area between Moving in and out of the transported section of rail remains as constant as possible, so that changes in the Span through different lengths Transport steps avoided or at least so small be kept so that they are not significant. That is, that any voltage changes that occur only on one varying modulus of elasticity over the length of the web, temperature influences, moisture influences and others from the expiry of the Transport influences due to independent influences are.  

For precise execution of the transport step can also the measure contribute to the length of the individual reports to refer to the neutral fiber of the web. This can be done in the way that happened a value that is half the thickness corresponds to the material web, to the diameter of the drive drum is added. For the precise implementation of the Transport step will advantageously the length of each Repeats measured in the neutral fiber of the web.

In the drawing is an embodiment of the invention shown. Show it:

Fig. 1 is a side view of a screen printing machine for printing on sheet material in the scheme,

Fig. 2 shows a device performing the feeding in a larger scale at the outlet section of FIG. 1,

Fig. 3 shows the circuit diagram of the control device for the advance transport of the web.

The web to be printed 10, which is provided with a likewise web-shaped protection pad 11 is withdrawn from a supply roll 12 and first freed in the station 13 of the protective support 11, which is located on the side of the web 10 to provide the with the printed image is. The protective pad 11 is rolled up on a supply roll 14 located in the station 13 .

From the station 13 , the web 10 freed from the protective pad 11 arrives in a dancer 16 , which is provided with a plurality of slidably arranged rollers and, in the usual way, serves the different feed speeds of the web 10 in the direction of the arrows 17 in front or behind to compensate for the dancer 16 . The web 10 is continuously withdrawn from the roll 12 , whereas it is gradually transported forward in the feed direction 17 behind the dancer movement.

From the dancer 16 , the web 10 arrives in a first feed device 18 , which is provided with a drive roller 20 and additional guide and deflection rollers or rollers 21 , 22 and 23 . The drive drum e 20 is driven by a direct current motor 24 .

In the feed direction 17 behind the first feed device 18 , a first screen printing station 25 is arranged, in which using a printing screen 26 and other conventional means, not shown in the drawing, such as. B. squeegee and impression roller, a first print image is applied to the web 10 . From the first screen printing station 25 , the section of the web 10 provided there with the first print image passes in the following transport step into a first drying station 27 , in which the printing ink applied in the first screen printing station is dried at least to the extent that a second print image on the first print image can be applied in the second screen printing station 28 , in which the corresponding section of the web 10 is brought from the first drying station 27 in one of the following transport steps. The second screen printing station 28 is followed by a second drying station 29 , in which the printing ink applied in the second screen printing station is dried before the respective section of the web 10 reaches the area of the second feed device 30 during the following transport step. The latter also consists of a drive drum 20 and guide and deflection rollers or rollers 21 , 22 , 23 , which are arranged in mirror image to the rollers and rollers of the first feed device 18 . The drive drum e 20 of the second feed device 30 is also driven by a DC motor 24 .

The second feed device 30 is arranged in the feed direction 10, a second dancer 32 , which analogous to the first dancer 16 , but with the opposite effect, the compensation between the intermittent transport of the web 10 between the first feed device 18 and the second feed device 30 and the continuous transport the web 10 between the second dancer movement 32 and the supply roll 33 , onto which the printed web is wound, after a likewise web-shaped protective pad 11 has previously been applied to the printed web 10 by a supply roll 34 .

In that area between the two feed devices 18 and 30 , the longitudinal tension of the web 10 should be kept as constant as possible. For this purpose, in the example shown in the drawing, the extract from this area, in which the processing stations 25 , 27 , 28 and 29 are located, the deflection roller 23 , which belongs to the second feed device 30 , with the interposition of a strain gauge 36 ( FIG. 2) mounted, which is connected to a bridge circuit 37 ( Fig. 3), so that the strain of the web 10 can be determined at any suitable point in time via this strain gauge.

The value of the tension of the web 10 detected by the strain gauge bridge 37 between the feed assigned to the first feed device 18 and the feed assigned to the second feed device 30 is fed via a line 35 into a main computer 38 , in which the set values for the web tension, for the repeat length, for the speed sequence and for the thickness of the web material. The setpoints for the speed sequence for each transport step relate to the acceleration at the start of the transport step, the deceleration at the end of the transport step and a phase of constant speed between the acceleration and deceleration for the drive motors 24 of the two feed devices 18 and 30 .

Each feed device 18 or 30 is assigned a computer 40 or 41 , which receives from the main computer 38 the respective speed, acceleration, deceleration and repeat length reference values and passes them on to a downstream DC chopper 42 or 43 , respectively Pulse control controls the respective downstream drive motor 24 of the feed device 18 or 30 in terms of performance. Between the DC chopper 42 or 43 and the respective downstream drive motor 24 , a conventional current control circuit 50 is also connected, which is intended to ensure that the associated DC motor 24 runs as vibration-free as possible.

Furthermore, each drive drum 20 of the two feed devices 18 and 30, a rotary encoder 51 and a tachometer generator 44 is assigned. The rotary encoder 51 measures the angular position of the drive drum (s) 20 , 21 , 22 , which are connected to one another in terms of gear, ie the distance traveled by the drive drum (s) 20 , 21 , 22 during the rotational movement. The tachometer generator 24 measures the speed of the drive drum 20 . It is part of a control loop that inputs the measured speed to the DC chopper via a line 48 . In this the actual value of the speed is compared with its target value. In the event of a deviation, the actual speed is adapted to the target speed by influencing the DC motor 24 accordingly.

The position report of the respective rotary encoder 43 arrives via a line 49 in the associated computer 40 or 41 for moving in and out. The encoder delivers a certain number, e.g. B. 5000, pulses per revolution. The downstream computer 40 or 41 measures at certain time intervals, for. B. after every four milliseconds, the number of pulses arriving between two measurements and deduces the distance traveled and the speed, i.e. the distance per unit of time. The computer 40 or 41 then determines by comparison whether the path covered during the transport step from the material web 10 to a certain point in time corresponds to the corresponding path entered in the computer. If there is a discrepancy, for example the path 10 has covered a greater distance than the target value, the target value for the speed entered in this is also changed by the respective computer 40 or 41 and is transferred via line 45 to the DC chopper entered, which then controls the speed sequence according to the new setpoint. In this way, with each transport step of the web 10 , the predetermined length is actually drawn into the area between the feed or feed device 18 and the pull-out or feed device 30 , so that changes in the tension caused by changes in the feed length, that is to say the repeat length, are avoided.

The strain gauge 36 is used to measure the tension present in the web 10 between the pull-in and pull-out between two successive transport steps. The measurement result reaches the main computer 38 via line 35 , in which it is compared with the target value entered. In the event of a deviation from the target voltage, the main computer 38 sends a corresponding signal to one of the computers 40 or 41 or, if appropriate, both computers 40 and 41 , which use the DC chopper 42 and / or 43 to make a corresponding correction of the feed effect length.

The web 10 can be provided with optoelectronic or otherwise detectable markings, which make it possible to determine the position of the web section to be printed on the respective printing unit, in particular thus on the screen printing stencil 26 of the respective printing station, at the end of the respective transport step. It is possible to arrange the screen printing stencil 26 in the longitudinal direction of the web 10 such that they step after each transport and are aligned with the section of the web to be printed before the printing process begins. In this way, it is possible to achieve an exact alignment of the screen printing stencil with the print image applied in the previous station, in particular in the second and possibly further, following printing stations.

Deviating from those shown in the drawing example, the web tension can also be on any elsewhere between the two feed devices be measured. It follows that the necessary facilities also in one place in the area can be arranged between indent and excerpt.

Claims (11)

1. A method for positioning a material web to be transported batchwise by means of at least two feed devices through processing stations arranged between the feed devices, the feed devices for the material web being controlled by a programmable computer in which the length of the path to be covered during a transport step is stored, characterized in that that the tension of the web is measured and the measured value is compared with a target value stored in the computer and if the actual value deviates from the target value at least when the extent of the deviation exceeds a certain threshold value, the drive means of at least one of the feed devices is influenced in such a way that by stretching or shortening the web material drawn into the area between the two feed devices by means of a transport step, its tension is at least approximated to the desired value. 2. The method according to claim 1, characterized in that the tension in the period between two consecutive Transport steps measured and if the actual Value of the target value of the drive during the next transport step is influenced accordingly. 3. The method according to claim 1, characterized in that the drive of the feed device at the pull-out for ver lengthening or shortening of the transport step is affected becomes. 4. The method according to claim 1, characterized in that the drive of the feed device at the feeder for ver lengthening or shortening of the transport step is affected becomes. 5. The method according to claim 1, characterized in that the drives of the feed devices on the feeder and on Excerpt to extend or shorten the transport step can be influenced. 6. The method according to claim 1, characterized in that the tension of the web in its neutral fiber is determined.   7. The method according to claim 1, characterized in that during the transport step of the material web covered distance and recorded in the computer with the given route and the entered speed The sequence of movements over the distance of a transport step compared and in the event of deviations the speed course depending on the distance actually traveled will be changed. 8. The method according to claim 1, characterized in that the speed course an acceleration phase and has a delay phase and the intervention in the Speed course depending on the effective distance traveled by the material web is completed in the delay phase.   9. Device for positioning a batch of material to be transported through processing stations ( 10 ) with two feed devices ( 18, 30 ) and intermediate treatment stations and a programmable computer in which the length of the path to be covered during a transport step is stored for controlling the feed devices ( 18, 30 ), characterized in that at least one device ( 36, 37 ) for measuring the tension in the transport path ( 10 ) is provided and at least one of the feed devices ( 18, 30 ) depending on the measured tension in the sense of a Keeping the same constant is controllable. 10. The device according to claim 9, characterized in that the device ( 36 , 37 ) for measuring the tension at the excerpt of the between the feed devices ( 18 , 30 ) is located Lichen section. 11. The device according to claim 9, characterized in that a device ( 51 ) for detecting the path covered during the transport step of the material web ( 10 ) and provided in the computer ( 40 , 41 ) with the specified route and the speed input also entered speed compared over the distance of a transport step and is changed in the event of deviations in the speed sequence depending on the effectively covered distance.